Parallel

NSF Awards Grant for National OpenTopography LiDAR Facility

, December 14, 2009

OpenTopography addresses the basic challenge of how to efficiently manage, archive, distribute, process and integrate tens of terabytes of community data.

The San Diego Supercomputer Center (SDSC) at UC San Diego and Arizona State University have been awarded a $1.7 million grant from the National Science Foundation (NSF) to operate an internet-based national data facility for high-resolution topographic data acquired with Light Detection and Ranging (LiDAR) technology. The facility will also provide online processing tools and act as a community repository for information, software and training materials.

The three-year project, which includes a grant of $1.4 million to SDSC and $300,000 to the School of Earth and Space Exploration at Arizona State University, will be based on SDSC's OpenTopography portal, which will be scaled up to a national facility to make topography data available in multiple formats. This includes "raw" LiDAR point cloud data, standard LiDAR-derived digital elevation models, and easily accessible Google Earth products to better serve LiDAR users at various levels of expertise.

OpenTopography currently hosts and distributes a limited number of data sets acquired with funding from the NSF, NASA, and the U.S. Geological Survey (USGS). It is the product of the NSF-funded GEON (GeoSciences Network) project that has developed cyberinfrastructure for the integration of three- and four-dimensional earth science data.

"The fundamental goal of this project is to provide centralized access to community earth science LiDAR topography data," said Christopher Crosby, SDSC's project manager for the OpenTopography Facility. "There is wealth of public domain LiDAR data available, but much of it is not yet easily accessible. We intend to leverage available cyberinfrastructure to make these powerful data sets, as well as online processing tools and knowledge resources, accessible to a large and diverse user community."

The OpenTopography Facility will be primarily focused on large, community-oriented, scientific data sets, while building collaborations with existing LIDAR topography data providers and hosts such as the USGS and the NSF-funded National Center for Airborne Laser Mapping (NCALM) to link to their data archives and/or to host and distribute their data. An advisory committee representing OpenTopography users will prioritize which data sets are of greatest value to the community.

As one of the most powerful tools available to study the earth's surface, overlying vegetation and man-made structures, high-resolution LiDAR data sets are widely regarded as revolutionary for earth science, environmental and engineering applications, as well as natural hazard studies. LiDAR makes it possible to generate digital elevation models (DEMs) at resolutions that are more than one order of magnitude better than those currently available. Moreover, large geographic areas can be surveyed at relatively low expense.

"LiDAR topography data is revolutionizing the way we study the geomorphic processes acting along the Earth's surface," said Ramon Arrowsmith, associate professor in the School of Earth and Space Exploration at Arizona State University and project co-investigator. "From earthquake hazards research to examining the impact of human development on natural systems, LiDAR is emerging as a fundamental tool."

"High-resolution topographic data collection is burgeoning for research, planning and regulatory activities, yet the massive size of the data sets has made online community access to them difficult," said Chaitan Baru, SDSC Distinguished Scientist and principal investigator for OpenTopography and GEON. "LiDAR is an interesting test case because of those data volumes and the on-demand access our users require, but ultimately the strategies developed in this work could be applied to all types of scientific data over a very wide range of domains."

OpenTopography addresses the basic challenge of how to efficiently manage, archive, distribute, process and integrate tens of terabytes of community geospatial data. Many organizations that acquire LiDAR topography do not have the disk space, bandwidth, and in-house expertise necessary to make these data available via the Internet for community-level access and analysis.

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